1 Aghazadeh Mohandesi, J., "Transformation characteristics of functionally graded steels produced by electroslag remelting" 36 (36): 3471-3476, 2005
2 Talebizad, A., "Thermomechanical behavior of cylindrical pressure vessels made of functionally graded austenitic/ferritic steels" 77 : 171-183, 2013
3 Zhao, X., "Thermoelastic and vibration analysis of functionally graded cylindrical shells" 51 (51): 694-707, 2009
4 Cinefra, M., "Thermo-mechanical analysis of functionally graded shells" 33 (33): 942-963, 2010
5 Aghazadeh Mohandesi, J., "Tensile behavior of functionally graded steels produced by electroslag remelting" 37 (37): 2125-2132, 2006
6 M. Foroutan, "Static analysis of FGM cylinders by a mesh-free method" 국제구조공학회 12 (12): 1-11, 2012
7 Reddy, J. N., "On the solutions to forced motions of rectangular composite plates" 49 (49): 403-408, 1982
8 Shen, H. S., "Nonlinear vibration of shear deformable FGM cylindrical shells surrounded by an elastic medium" 94 (94): 1144-1154, 2012
9 Nazari, A., "Impact energy of functionally graded steels with crack divider configuration" 25 (25): 847-852, 2009
10 Nazari, A., "Impact energy of functionally graded steels in crack arrester configuration" 19 (19): 1058-1064, 2010
1 Aghazadeh Mohandesi, J., "Transformation characteristics of functionally graded steels produced by electroslag remelting" 36 (36): 3471-3476, 2005
2 Talebizad, A., "Thermomechanical behavior of cylindrical pressure vessels made of functionally graded austenitic/ferritic steels" 77 : 171-183, 2013
3 Zhao, X., "Thermoelastic and vibration analysis of functionally graded cylindrical shells" 51 (51): 694-707, 2009
4 Cinefra, M., "Thermo-mechanical analysis of functionally graded shells" 33 (33): 942-963, 2010
5 Aghazadeh Mohandesi, J., "Tensile behavior of functionally graded steels produced by electroslag remelting" 37 (37): 2125-2132, 2006
6 M. Foroutan, "Static analysis of FGM cylinders by a mesh-free method" 국제구조공학회 12 (12): 1-11, 2012
7 Reddy, J. N., "On the solutions to forced motions of rectangular composite plates" 49 (49): 403-408, 1982
8 Shen, H. S., "Nonlinear vibration of shear deformable FGM cylindrical shells surrounded by an elastic medium" 94 (94): 1144-1154, 2012
9 Nazari, A., "Impact energy of functionally graded steels with crack divider configuration" 25 (25): 847-852, 2009
10 Nazari, A., "Impact energy of functionally graded steels in crack arrester configuration" 19 (19): 1058-1064, 2010
11 Suresh, S., "Fundamentals of Functionally Graded Materials, Institute of Materials"
12 Kamarian, S., "Free vibration analysis of three-parameter functionally graded material sandwich plates resting on Pasternak foundations" 15 (15): 292-308, 2013
13 Alibeigloo A., "Elasticity solution for the free vibration analysis of functionally graded cylindrical shell bonded to thin piezoelectric layers" 89 : 98-111, 2012
14 Sofiyev, A. H., "Dynamic response of an FGM cylindrical shell under moving loads" 93 (93): 58-66, 2010
15 Santos, H., "A semi-analytical finite element model for the analysis of cylindrical shells made of functionally graded materials" 91 (91): 427-432, 2009